New research shows that physical pressure from brain tumors or injuries triggers a "self-destruction" program in neurons, leading to irreversible brain damage.

Scientists at Rutgers University–Newark have developed a first-of-its-kind RNA-based nanotechnology that assembles itself inside living human cells and can be programmed to stop propagation of harmful ...

A new predictive framework reprograms T cells to sustain immune memory while preserving their ability to fight cancer and infections.

In today’s issue: Our in-depth WP Intelligence report on Medicaid’s new approach to innovative yet pricey drugs. Botox ...

To think, feel, talk and move, neurons send messages through electrical signals in the brain and spinal cord. This intricate ...

Scientists discovered key genetic factors that determine whether a T cell acts as a powerful disease fighter or enters an ...

King's College London researchers have created a unique collection of human stem cell models that could help to uncover why ...

Because many different types of cancer cells overexpress programmed death-ligand 1 (PD-L1), this cell surface protein is a major target of cancer immunotherapy. Unfortunately, drugs that target it do ...

MUSCAT: A recent study at Sultan Qaboos University (SQU) has explored the potential of moringa leaves as a natural agent in ...

Scientists uncover a new “recipe” that shows how exhausted T cells can be reprogrammed to regain their ability to attack tumors.

For San Diego researchers and the wider immunotherapy community, the atlas functions as a practical roadmap. It does not ...

A pioneering clinical trial is exploring whether lab-engineered stem cells can restore dopamine production in people with Parkinson’s disease.